DE19637567B4 - Method of manufacturing a building - Google Patents

Abstract

Method for producing a building (10), in which an inflatable mold (12) is arranged airtightly on a foundation (14) or the like, the mold (12) is inflated by suitable means and, after reaching the exact shape, layers are applied on the inside in which anchors (20) are anchored with foot plates (28) facing inwards and secured to the static-bearing layer reinforcing means (22),
characterized in that
The anchors (20) are fastened directly on the mold (12),
- Subsequently, a first concrete layer (24) is applied,
- The reinforcement means (22) are connected to the armature (20) and
- A static-bearing second concrete layer (26) is applied.

Description

TECHNICAL TERRITORY

The The present invention relates to a method for producing a building in which an inflatable form airtight on a foundation or The like is inflated, the mold inflated by suitable means and after reaching the exact shape inside layers be applied, in which anchors are anchored with foot plates, pointing inwards, and at the reinforcing means for a static supporting layer are attached.

Out US-A-4155967 discloses a method of the initially mentioned type.

According to the known Method, the foam layer is applied layer by layer and the foot plates the anchors are attached to the first foam layer with adhesive. This attachment is insufficient. Many anchors fall under the Influence of forces the while of spraying, down. Even after surrounding the Anchor feet through the next Foam layer over the said foot plates is applied, the said anchors are not able to To withstand loads during the attachment of the reinforcing bars and while of spraying the concrete occur.

Out EP-0357151 B1 discloses a generic method which characterized by the fact that the Foam resin layer is first prepared until their final required Strength achieved is that now subsequently The anchors are placed on the foam resin layer and fixed by bending Sections, which cut out of the plate and into a location are bent, which is perpendicular to the plane of the plate and of pointing away the anchor, are introduced into the foam layer, and that the first Concrete layer over the feet of the anchors sprayed is, which rest against the inside of the foam layer. at this method, it happens that the outside of the shape after the Making the building Bubbles throws, which visually creates a very unfavorable impression. Furthermore is in many cases not necessary to provide an insulating foam resin layer, wherein in these cases the limits of economic efficiency as a result of the relatively expensive Foam resin layer in rare cases be achieved.

Similar Problems occur in a method that also with a inflatable mold and an applied foam resin layer works and in U.S. Patent No. 3,272,719.

PRESENTATION THE INVENTION

outgoing of the cited prior art is the present invention the task or the technical problem underlying a improved method for producing a building of the aforementioned Indicate the type which enables economic production, to a permanently reliable static carrying function leads, allows easy and quick installation and a visually satisfying external appearance of the building guaranteed in particular prevents the formation of bubbles.

Of the Invention is further the object of an anchor for Use in the said method, which involves a simple, reliable and economic anchoring of the reinforcement means possible and which can be produced economically.

The inventive method is by the characteristics of the independent claims 1 and 11 given. The anchor according to the invention is characterized by the features the claims 9 and 16 given.

A first preferred variant of the method according to the invention is characterized accordingly by from that the Anchors are attached directly to the mold, then one first concrete layer is applied, which is essentially the foot plates of the Anchor covered, the reinforcements are connected to the anchors and one static bearing second concrete layer is applied.

With the method according to the invention Is it possible, on the production of a plastic foam layer, within which the anchors are anchored to give up. This brings significant economic benefits with it. A particularly preferred embodiment is characterized by the fact that the Anchors are glued to the mold inside, according to a particularly advantageous embodiment Anchors are used, on whose base plate a double-sided Adhesive tape is arranged. The use of a double-sided adhesive tape leads to economic mounting options the anchor on the form. The anchors can be specified in any predetermined Grid can be attached to the mold in a simple way, where the grid dimensions based on the statically required type and amount of reinforcement.

The inventive method offers about it addition the possibility if high thermal insulation values be demanded that after attaching the anchor to the mold initially applied an insulating layer becomes.

According to one particularly preferred embodiment of the method according to the invention on the inside of the form at least partially strips of material arranged, in particular glued, the water or water vapor permeable are. This measure will prevents the Bubble formation detected in the prior art occurs. This Its reason is that in particular when hot Storage goods inside the building is stored, water escapes from the concrete and between concrete layer and Form accumulates, which in the known method for bubble formation leads. This is in the method according to the invention avoided, since any leaking water are discharged into the strip of material can. In particular, in a spherical-shaped building it is advantageous, the strips of material at least partially in Meridianrichtung and / or to arrange the width circle direction, whereby a particularly good drainage effect is achieved.

A the ones mentioned above Great water discharging Features having variant embodiment is characterized according to a Particularly preferred embodiment of the method according to the invention characterized in that material strips can be used, which have a Velcro connection inside and anchors are used, the fußplattenseitig a corresponding Have Velcro connection, So that the Anchor in any predefined grid on the material strip are fastened. The strips of material are thus in this embodiment designed as Velcro and Velcro.

at has the direct application of the first concrete layer on the mold it turns out to be cheap exposed the mold inside previously with an adhesive to provide.

One anchor according to the invention for use in the method described above, which is a foot plate and at least one projection unit for connecting the Has reinforcing means, characterized in that at the footplate a double-sided tape is arranged. In this case, the double-sided adhesive tape may be preferred a Velcro closure unit exhibit. It is also possible the foot plate with one outwards pointing, that is to the inside of the form connectable Velcro closure unit, be provided, wherein previously the inside of the mold to the corresponding Positions with the corresponding Gegenklettverschlußeinheit to be provided.

A second inventive embodiment of a method for making a building The type mentioned above is characterized in that partially in a predeterminable grid, a first layer of concrete directly onto the mold is applied, in the first layer of concrete an anchor with a Bearing base pressed is, as long as the first concrete layer is not yet cured, the reinforcements are connected to the anchors and the second carrying concrete layer is applied. Here, the first concrete layer as a dot matrix, strip grid or as an inside surface on the form be upset.

Also In this method, it is possible to first on the inside of the form at least partially strip of material attach, in particular stick, which are permeable to water or water vapor.

It is also conceivable that before the application of the first concrete layer an insulating layer on the inside of the mold is applied.

Around a good bond of the concrete layer with the mold or with the insulating layer to ensure it is particularly advantageous to first apply an adhesive.

One anchor according to the invention for use in the method described above, that is an anchor the one to impress in the first concrete layer is suitable, has at least one projection unit to connect the reinforcing means and is characterized in that the projection unit a bearing base is formed, which is formed substantially linear is, so that the Storage base is easily pressed into the not yet cured first concrete layer.

there The bearing base may take the form of an open or closed polygon have. It is also possible, that the Bearing base at least partially a curved shape, in particular circular or elliptical shape. Such anchors can be in a simple Way inexpensive in a big one quantity produce and mount easily.

Either in the process with the anchor directly fixing the inside on the form as well as in the process of indenting the Anchor in the first concrete layer is the thickness of the first concrete layer in the range between 2 and 5 cm (centimeters).

The Thickness of the static-bearing second concrete layer is in the Usually about 12 to 30 cm (centimeters), but may vary depending on static Requirements also be larger. Also a tapering upwards Cross-sectional contour is conceivable.

Other embodiments and advantages of the invention will become apparent from the features further listed in the claims as well as by the standing specified embodiments. The features of the claims may be combined in any manner as far as they are not obviously mutually exclusive.

SHORT DESCRIPTION THE DRAWING

The Invention as well as advantageous embodiments and developments The same will be described below with reference to the drawings Examples closer described and explained. The description and drawing to be taken features can individually for applied to one or more in any combination according to the invention become. Show it:

1 schematic detail cross section through the wall of a building with anchors glued on the inside of the mold,

2 schematic perspective view of the armature according to 1 .

3 schematic detail cross section through the wall of a building with an anchor connected via a Velcro connection to the inside of the mold,

4 schematic perspective view of a domed building with material strips arranged in the meridian direction,

5 schematic perspective view of a dome-shaped building with strips of material in meridian and width circle direction,

6 schematic detail cross section through the wall of a building with an anchor pressed into a first concrete layer,

7 schematic detail cross section through the wall of a building according to 6 with additional material strip,

8th schematic detail cross section through the wall of a building according to 7 with additional insulating layer,

9 a, b, c show schematic perspective views of various embodiments of anchors for pressing into a concrete layer,

10 schematic perspective view of a building with puncture-patterned concrete areas in the anchors are pressed, and

11 schematic detail cross section through the wall of a building according to 1 with additionally applied to the mold insulating layer.

WAYS TO EXECUTE INVENTION

In the 4 and 5 schematically a dome-shaped building is shown, which can be produced by the method according to the invention. The preparation of the mold is described in detail in EP-0357151 and will not be explained again in detail here. It is generally the case that first the form 12 airtight with a foundation ring 14 is connected. Here are in the 4 and 5 not shown airlocks provided through which the interior of the form can be entered. In addition, means are provided which generate an overpressure inside the mold until the mold assumes the final desired dome shape. Virtually any inflatable contour can be created. In the broadest sense, the inflated form serves as "lost formwork". Once the form 12 has reached its final contour, layers are applied on the inside until finally a static-bearing building is created.

In 4 are schematic strips of material 38 represented meridian-shaped.

These strips of material 38 are inside on the shape 12 glued and have water or water vapor permeable properties. In 5 are in addition to the material strips 38 in Meridianrichtung more strips of material 40 arranged in the width circle direction. The purpose of these strips of material will be described below.

In a first embodiment of the method according to the invention, a wall construction according to 1 generated. They become anchors 20.1 gem. 2 used, which is a projection unit 32 for connecting reinforcement 22 and one with the projection unit 32 connected footplate 28 have, according to. the embodiment in 2 is designed as a square plate. On the inside of the mold 12 pointing surface of the foot plate 28 is a double sided tape 36 appropriate. By means of this double-sided adhesive tape 36 can the anchor 20.1 easily directly on the inner surface of the mold 12 be attached. Here, each predefinable grid can be implemented easily. After attaching the anchors 20.1 on the inside of the mold 12 becomes a first concrete layer 24 sprayed, whose thickness is such that, on the one hand, a sufficient concrete cover over the still to be introduced reinforcement 22 is guaranteed and at the same time the dead weight of the reinforcement 22 at the projection unit 32 of the anchor 20.1 attached who that can be worn, at least partially. The second concrete layer can also be applied in several layers one behind the other (in 1 shown in dashed lines). The embodiment according to 11 differs from the according to 1 in that after securing the anchor 20.1 and before applying the first concrete layer 24 an insulating layer 70 is applied.

In the embodiment according to 3 becomes an anchor 20.2 used, which is similar to the anchor according to 1 but on its inside the shape 12 facing Fußplattenoberfläche a Velcro closure unit 34 has. When fixing the anchor 20.2 at the shape 12 comes the velcro closure 34 with areas of the material strip 38 engaged, this strip of material 38 also designed as a Velcro closure unit. In addition, this has material strips 38 still water-removing properties. This avoids that the shape 12 bubbles at a later time. This has been found in buildings that have been created according to the known method. Especially when storing hot material within the building, it comes at least in the early days to the water outlet from the concrete layers. This leads to unsightly blistering of the mold 12 , By using the water-removing material strips 38 or according to 5 in addition the material strip 40 , This water is removed, the discharge can be done in not shown gutter profiles or outflow profiles, whereby the blistering is completely avoided. In this embodiment, it is also possible before applying the first concrete layer 24 to apply an insulating layer.

After applying the first concrete layer 24 become the reinforcement 22 at the projection units 32 the anchor 20.1 respectively 20.2 connected. Then, the static-bearing second concrete layer 26 be applied. It is also possible to apply several second layers in succession (onion tray system). Once the second concrete layer 56 is cured, is the building 10 stable even without overpressure.

Instead of The double-sided tape can also be an adhesive directly on the foot plate or the form will be applied.

In 6 schematically the section of a wall of a building is shown, which has also been made by means of an inflatable mold, which serves as a lost formwork. This has been done so that first a first concrete layer 54 directly on the inside of the mold 12 has been applied, wherein previously on the inside an adhesive has been applied to the mold. As long as the first concrete layer 54 not yet confirmed, becomes an anchor 50 in the first concrete layer 54 pressed in, which is a projection unit 51 and one to the projection unit 51 molded bearing base 52 has. To the projection unit 51 will be at a later date the reinforcement 22 attached. The storage base 52 completely immersed in the first concrete layer 54 one.

After connection of the reinforcement 22 to the projection units 51 the anchor 50 becomes the second static concrete layer 56 applied.

The embodiment according to 7 differs from the according to 6 in that first on the inside of the mold 12 water-permeable strips of material 38 as already described above, these strips of material 38.1 have no Velcro function. The same components bear the same reference numerals and will not be explained again.

The embodiment according to 8th differs from the according to 7 in that between the first concrete layer 54 and the strip of material 38.1 or the form 12 an insulating layer 58 has been applied. The same components bear the same reference numerals and will not be explained again.

In the 9 a, b, c are exemplary embodiments of anchors 50 with storage bases 52 shown that easily into the uncured concrete layer 54 can be pressed. The camp bases 52 have different lines, but are all substantially in a plane perpendicular to the projection unit 51 arranged.

The polygonal bearing base 52.1 of the anchor 50.1 has two substantially rectangular Umkantungen, so that a substantially three-sided square contour is achieved, whereby by approaching a further rectangular Umbantung a virtually closed square can be generated (shown in phantom).

The storage base 52.2 is bent in a substantially circular shape.

The anchor 50.3 has two projection units 51 with a common storage base 52.3 , where the bearing base 52.3 has two right-angled Umkantungen and extends substantially on three sides along a square contour.

With regard to the lines of the bearing bases are still more diverse forms conceivable. The Bearings are to be designed so that they can be easily pressed into the first layer of concrete for anchoring purposes.

In 10 is a schematic building 10 with foundation 14 and shape 12 illustrated, wherein punctate-shaped first concrete layer areas 60 are shown schematically, in the case of not yet cured concrete, the anchor, for example according to 9 can be pressed with their storage bases. After pressing in, the first layer of concrete can be produced across the board.

It However, it is also conceivable that even the first concrete layer covering the whole area is prepared and the anchors with their storage bases before curing in be pressed in a predetermined grid.

Claims (19)

Method for producing a building ( 10 ), in which an inflatable mold ( 12 ) airtight on a foundation ( 14 ) or the like, the shape ( 12 ) is inflated by suitable means and after reaching the exact shape inside layers are applied, in which anchor ( 20 ) with foot plates ( 28 anchored to the inside, and to the reinforcing means ( 22 ) for a static load-bearing layer, characterized in that - the anchors ( 20 ) directly on the mold ( 12 ), - then a first layer of concrete ( 24 ), - the reinforcement ( 22 ) to the anchors ( 20 ) and - a static load-bearing second concrete layer ( 26 ) is applied. Method according to claim 1, characterized in that - the anchors ( 20 ) on the shape ( 12 ) are glued on the inside. Method according to claim 2, characterized in that - anchor ( 20.1 ) are placed on the base plate ( 28 ) a double-sided adhesive tape ( 36 ) is arranged. Method according to one or more of the preceding claims, characterized in that - on the inside of the mold ( 12 ) Material strips (at least in certain areas) ( 38 . 40 ), in particular glued, be, which are permeable to water or water vapor. Method according to one or more of the preceding claims, characterized in that - after fixing the anchors ( 20 ) an insulating layer is applied. Method according to one or more of the preceding claims, characterized in that - strips of material ( 38 . 40 ) are used, which have on the inside a Velcro connection and anchor ( 20.2 ) are used, the fußplattenseitig a corresponding Velcro connection ( 34 ), so that the anchors ( 20.2 ) in an arbitrarily predetermined grid on the strip of material ( 38 . 40 ) are fastened. Method according to claims 4 and 5, characterized in that - strips of material ( 38 . 40 ) are used, which have a dual function, namely - water or water vapor permeable and - velcro-sealable. Method according to claims 5, 6 and / or 7, characterized in that - the building ( 10 ) is formed substantially dome-shaped and the strips of material ( 38 . 40 ) are arranged at least partially in the meridian and / or width circle direction. Anchor ( 20.1 ) for use in the method according to one or more of the preceding claims, which anchor ( 20.1 ) a foot plate ( 28 ) and at least one projection unit ( 32 ) for connecting the reinforcement ( 22 ), characterized in that - that on the foot plate ( 28 ) a double-sided adhesive tape ( 36 ) is arranged. Anchor ( 20.2 ) according to claim 9, characterized in that - the double-sided adhesive tape comprises a hook-and-loop fastener unit ( 34 ) or the outwardly facing side of the foot plate has a hook and loop fastener unit. Method according to the preamble of claim 1, characterized in that - in certain areas in a predeterminable grid a first concrete layer ( 54 ) is applied directly on the inside of the mold, - in the first concrete layer an anchor ( 50.1 . 50.2 . 50.3 ) with a storage base ( 52.1 . 52.2 . 52.3 ), - the reinforcement ( 22 ) to the anchors ( 50 ) and - the load-bearing second concrete layer ( 56 ) is applied on the inside. Method according to claim 11, characterized in that - the first concrete layer ( 54 ) is designed as a dot matrix or strip grid. Method according to claim 11 and / or 12, characterized in that - first on the inside of the mold ( 12 ) Material strips (at least in certain areas) ( 38 . 40 ), in particular glued, be, which are permeable to water or water vapor. Process according to claim 11, 12 or 13, characterized in that - before the application of the first concrete layer ( 54 ) an insulating layer ( 58 ) is applied to the inside of the mold. Method according to one or more of claims 11 to 14, characterized in that - first the shape ( 12 ) is provided on the inside with an adhesive. Anchor ( 50 ) for use in the method according to one or more of claims 11 to 15, with at least one projection unit ( 51 ) for connecting the reinforcement ( 22 ), characterized in that - to the projection unit ( 51 ) a storage base ( 52.1 . 52.2 . 52 . 3 ) is formed, which is formed substantially linear, so that the bearing base ( 52 ) into the uncured first concrete layer ( 54 ) is depressible. Anchor according to claim 16, characterized in that - the storage base is arranged substantially in a plane which is substantially is arranged perpendicular to the projection unit. Anchor according to claim 15, characterized in that - the storage base has the form of an open or closed polygon. Anchor according to claim 15, characterized in that - the storage base an at least partially curved shape, in particular circular or elliptical shape.